'''Descriptor classes defined in this file are "intermediary" classes that gather, from the user application, information about found gen- or workflow- classes.''' # ------------------------------------------------------------------------------ import types, copy import appy.gen as gen from po import PoMessage from model import ModelClass, toolFieldPrefixes from utils import produceNiceMessage, getClassName TABS = 4 # Number of blanks in a Python indentation. # ------------------------------------------------------------------------------ class Descriptor: # Abstract def __init__(self, klass, orderedAttributes, generator): # The corresponding Python class self.klass = klass # The names of the static appy-compliant attributes declared in # self.klass self.orderedAttributes = orderedAttributes # A reference to the code generator. self.generator = generator def __repr__(self): return '' % self.klass.__name__ class ClassDescriptor(Descriptor): '''This class gives information about an Appy class.''' def __init__(self, klass, orderedAttributes, generator): Descriptor.__init__(self, klass, orderedAttributes, generator) self.methods = '' # Needed method definitions will be generated here # We remember here encountered pages and groups defined in the Appy # type. Indeed, after having parsed all application classes, we will # need to generate i18n labels for every child class of the class # that declared pages and groups. self.labelsToPropagate = [] #~[PoMessage]~ Some labels (like page, # group or action names) need to be propagated in children classes # (because they contain the class name). But at this time we don't know # yet every sub-class. So we store those labels here; the Generator # will propagate them later. self.toolFieldsToPropagate = [] # For this class, some fields have # been defined on the Tool class. Those fields need to be defined # for child classes of this class as well, but at this time we don't # know yet every sub-class. So we store field definitions here; the # Generator will propagate them later. self.name = getClassName(self.klass, generator.applicationName) self.predefined = False self.customized = False # Phase and page names will be calculated later, when first required. self.phases = None self.pages = None def getOrderedAppyAttributes(self, condition=None): '''Returns the appy types for all attributes of this class and parent class(es). If a p_condition is specified, ony Appy types matching the condition will be returned. p_condition must be a string containing an expression that will be evaluated with, in its context, "self" being this ClassDescriptor and "attrValue" being the current Type instance. Order of returned attributes already takes into account type's "move" attributes.''' attrs = [] # First, get the attributes for the current class for attrName in self.orderedAttributes: try: attrValue = getattr(self.klass, attrName) hookClass = self.klass except AttributeError: attrValue = getattr(self.modelClass, attrName) hookClass = self.modelClass if isinstance(attrValue, gen.Type): if not condition or eval(condition): attrs.append( (attrName, attrValue, hookClass) ) # Then, add attributes from parent classes for baseClass in self.klass.__bases__: # Find the classDescr that corresponds to baseClass baseClassDescr = None for classDescr in self.generator.classes: if classDescr.klass == baseClass: baseClassDescr = classDescr break if baseClassDescr: attrs = baseClassDescr.getOrderedAppyAttributes() + attrs # Modify attributes order by using "move" attributes res = [] for name, appyType, klass in attrs: if appyType.move: newPosition = len(res) - abs(appyType.move) if newPosition <= 0: newPosition = 0 res.insert(newPosition, (name, appyType, klass)) else: res.append((name, appyType, klass)) return res def getChildren(self): '''Returns, among p_allClasses, the classes that inherit from p_self.''' res = [] for classDescr in self.generator.classes: if (classDescr.klass != self.klass) and \ issubclass(classDescr.klass, self.klass): res.append(classDescr) return res def getPhases(self): '''Lazy-gets the phases defined on fields of this class.''' if not hasattr(self, 'phases') or (self.phases == None): self.phases = [] for fieldName, appyType, klass in self.getOrderedAppyAttributes(): if appyType.page.phase in self.phases: continue self.phases.append(appyType.page.phase) return self.phases def getPages(self): '''Lazy-gets the page names defined on fields of this class.''' if not hasattr(self, 'pages') or (self.pages == None): self.pages = [] for fieldName, appyType, klass in self.getOrderedAppyAttributes(): if appyType.page.name in self.pages: continue self.pages.append(appyType.page.name) return self.pages def getParents(self, allClasses): parentWrapper = 'AbstractWrapper' parentClass = '%s.%s' % (self.klass.__module__, self.klass.__name__) if self.klass.__bases__: baseClassName = self.klass.__bases__[0].__name__ for k in allClasses: if self.klass.__name__ == baseClassName: parentWrapper = '%s_Wrapper' % k.name return (parentWrapper, parentClass) def generateSchema(self, configClass=False): '''Generates i18n and other related stuff for this class. If this class is in the configuration (tool, user, etc) we must avoid having attributes that rely on the configuration (ie attributes that are optional, with editDefault=True, etc).''' for attrName in self.orderedAttributes: try: attrValue = getattr(self.klass, attrName) except AttributeError: attrValue = getattr(self.modelClass, attrName) if isinstance(attrValue, gen.Type): if configClass: attrValue = copy.copy(attrValue) attrValue.optional = False attrValue.editDefault = False FieldDescriptor(attrName, attrValue, self).generate() def isAbstract(self): '''Is self.klass abstract?''' res = False if self.klass.__dict__.has_key('abstract'): res = self.klass.__dict__['abstract'] return res def isRoot(self): '''Is self.klass root? A root class represents some kind of major concept into the application. For example, creating instances of such classes will be easy from the user interface.''' res = False if self.klass.__dict__.has_key('root'): res = self.klass.__dict__['root'] return res def isFolder(self, klass=None): '''Must self.klass be a folder? If klass is not None, this method tests it on p_klass instead of self.klass.''' res = False theClass = self.klass if klass: theClass = klass if theClass.__dict__.has_key('folder'): res = theClass.__dict__['folder'] else: if theClass.__bases__: res = self.isFolder(theClass.__bases__[0]) return res def getCreators(self): '''Gets the specific creators defined for this class.''' res = [] if self.klass.__dict__.has_key('creators') and self.klass.creators: for creator in self.klass.creators: if isinstance(creator, gen.Role): if creator.local: raise 'Local role "%s" cannot be used as a creator.' % \ creator.name res.append(creator) else: res.append(gen.Role(creator)) return res def getCreateMean(self, type='Import'): '''Returns the mean for this class that corresponds to p_type, or None if the class does not support this create mean.''' if not self.klass.__dict__.has_key('create'): return None else: means = self.klass.create if not means: return None if not isinstance(means, tuple) and not isinstance(means, list): means = [means] for mean in means: exec 'found = isinstance(mean, %s)' % type if found: return mean return None @staticmethod def getSearches(klass): '''Returns the list of searches that are defined on this class.''' res = [] if klass.__dict__.has_key('search'): searches = klass.__dict__['search'] if isinstance(searches, basestring): res.append(gen.Search(searches)) elif isinstance(searches, gen.Search): res.append(searches) else: # It must be a list of searches. for search in searches: if isinstance(search, basestring): res.append(gen.Search(search)) else: res.append(search) return res @staticmethod def getSearch(klass, searchName): '''Gets the search named p_searchName.''' for search in ClassDescriptor.getSearches(klass): if search.name == searchName: return search return None def addIndexMethod(self, field): '''For indexed p_field, this method generates a method that allows to get the value of the field as must be copied into the corresponding index.''' m = self.methods spaces = TABS n = field.fieldName m += '\n' + ' '*spaces + 'def get%s%s(self):\n' % (n[0].upper(), n[1:]) spaces += TABS m += ' '*spaces + "'''Gets indexable value of field \"%s\".'''\n" % n m += ' '*spaces + 'return self.getAppyType("%s").getIndexValue(' \ 'self)\n' % n self.methods = m def addField(self, fieldName, fieldType): '''Adds a new field to the Tool.''' exec "self.modelClass.%s = fieldType" % fieldName if fieldName in self.modelClass._appy_attributes: print 'Warning, field "%s" is already existing on class "%s"' % \ (fieldName, self.modelClass.__name__) return self.modelClass._appy_attributes.append(fieldName) self.orderedAttributes.append(fieldName) # ------------------------------------------------------------------------------ class WorkflowDescriptor(Descriptor): '''This class gives information about an Appy workflow.''' @staticmethod def getWorkflowName(klass): '''Returns the name of this workflow.''' res = klass.__module__.replace('.', '_') + '_' + klass.__name__ return res.lower() # ------------------------------------------------------------------------------ class FieldDescriptor: '''This class gathers information about a specific typed attribute defined in a gen-class.''' # Although Appy allows to specify a multiplicity[0]>1 for those types, it is # not currently. So we will always generate single-valued type definitions # for them. singleValuedTypes = ('Integer', 'Float', 'Boolean', 'Date', 'File') def __init__(self, fieldName, appyType, classDescriptor): self.appyType = appyType self.classDescr = classDescriptor self.generator = classDescriptor.generator self.applicationName = classDescriptor.generator.applicationName self.fieldName = fieldName self.fieldParams = {'name': fieldName} self.widgetParams = {} self.fieldType = None self.widgetType = None def __repr__(self): return '' % (self.fieldName, self.classDescr) def getToolFieldMessage(self, fieldName): '''Some attributes generated on the Tool class need a specific default message, returned by this method.''' res = fieldName for prefix in toolFieldPrefixes: fullPrefix = prefix + 'For' if fieldName.startswith(fullPrefix): messageId = 'MSG_%s' % prefix res = getattr(PoMessage, messageId) if res.find('%s') != -1: # I must complete the message with the field name. res = res % fieldName.split('_')[-1] break return res def produceMessage(self, msgId, isLabel=True): '''Gets the default label, description or help (depending on p_msgType) for i18n message p_msgId.''' default = ' ' produceNice = False if isLabel: produceNice = True default = self.fieldName # Some attributes need a specific predefined message if isinstance(self.classDescr, ToolClassDescriptor): default = self.getToolFieldMessage(self.fieldName) if default != self.fieldName: produceNice = False msg = PoMessage(msgId, '', default) if produceNice: msg.produceNiceDefault() return msg def walkString(self): '''How to generate an Appy String?''' if self.appyType.isSelect and \ (type(self.appyType.validator) in (list, tuple)): # Generate i18n messages for every possible value if the list # of values is fixed. for value in self.appyType.validator: msgLabel = '%s_%s_list_%s' % (self.classDescr.name, self.fieldName, value) poMsg = PoMessage(msgLabel, '', value) poMsg.produceNiceDefault() self.generator.labels.append(poMsg) def walkAction(self): '''Generates the i18n-related label.''' if self.appyType.confirm: label = '%s_%s_confirm' % (self.classDescr.name, self.fieldName) msg = PoMessage(label, '', PoMessage.CONFIRM) self.generator.labels.append(msg) def walkRef(self): '''How to generate a Ref?''' # Update the list of referers self.generator.addReferer(self) # Add the widget label for the back reference back = self.appyType.back refClassName = getClassName(self.appyType.klass, self.applicationName) if back.hasLabel: backLabel = "%s_%s" % (refClassName, self.appyType.back.attribute) poMsg = PoMessage(backLabel, '', self.appyType.back.attribute) poMsg.produceNiceDefault() self.generator.labels.append(poMsg) # Add the label for the confirm message if relevant if self.appyType.addConfirm: label = '%s_%s_addConfirm' % (self.classDescr.name, self.fieldName) msg = PoMessage(label, '', PoMessage.CONFIRM) self.generator.labels.append(msg) def walkPod(self): # Add i18n-specific messages if self.appyType.askAction: label = '%s_%s_askaction' % (self.classDescr.name, self.fieldName) msg = PoMessage(label, '', PoMessage.POD_ASKACTION) self.generator.labels.append(msg) self.classDescr.labelsToPropagate.append(msg) # Add the POD-related fields on the Tool self.generator.tool.addPodRelatedFields(self) def walkList(self): # Add i18n-specific messages for name, field in self.appyType.fields: label = '%s_%s_%s' % (self.classDescr.name, self.fieldName, name) msg = PoMessage(label, '', name) msg.produceNiceDefault() self.generator.labels.append(msg) def walkCalendar(self): # Add i18n-specific messages for et in self.appyType.eventTypes: label = '%s_%s_event_%s' % (self.classDescr.name,self.fieldName,et) msg = PoMessage(label, '', et) msg.produceNiceDefault() self.generator.labels.append(msg) def walkAppyType(self): '''Walks into the Appy type definition and gathers data about the i18n labels.''' # Manage things common to all Appy types # - optional ? if self.appyType.optional: self.generator.tool.addOptionalField(self) # - edit default value ? if self.appyType.editDefault: self.generator.tool.addDefaultField(self) # - put an index on this field? if self.appyType.indexed and (self.fieldName != 'title'): self.classDescr.addIndexMethod(self) # i18n labels messages = self.generator.labels if not self.appyType.label: # Create labels for generating them in i18n files, only if required. i18nPrefix = "%s_%s" % (self.classDescr.name, self.fieldName) if self.appyType.hasLabel: messages.append(self.produceMessage(i18nPrefix)) if self.appyType.hasDescr: descrId = i18nPrefix + '_descr' messages.append(self.produceMessage(descrId,isLabel=False)) if self.appyType.hasHelp: helpId = i18nPrefix + '_help' messages.append(self.produceMessage(helpId, isLabel=False)) # Create i18n messages linked to pages and phases, only if there is more # than one page/phase for the class. ppMsgs = [] if len(self.classDescr.getPhases()) > 1: # Create the message for the name of the phase phaseName = self.appyType.page.phase msgId = '%s_phase_%s' % (self.classDescr.name, phaseName) ppMsgs.append(PoMessage(msgId, '', produceNiceMessage(phaseName))) if len(self.classDescr.getPages()) > 1: # Create the message for the name of the page pageName = self.appyType.page.name msgId = '%s_page_%s' % (self.classDescr.name, pageName) ppMsgs.append(PoMessage(msgId, '', produceNiceMessage(pageName))) for poMsg in ppMsgs: if poMsg not in messages: messages.append(poMsg) self.classDescr.labelsToPropagate.append(poMsg) # Create i18n messages linked to groups group = self.appyType.group if group and not group.label: group.generateLabels(messages, self.classDescr, set()) # Manage things which are specific to String types if self.appyType.type == 'String': self.walkString() # Manage things which are specific to Actions elif self.appyType.type == 'Action': self.walkAction() # Manage things which are specific to Ref types elif self.appyType.type == 'Ref': self.walkRef() # Manage things which are specific to Pod types elif self.appyType.type == 'Pod': self.walkPod() # Manage things which are specific to List types elif self.appyType.type == 'List': self.walkList() # Manage things which are specific to Calendar types elif self.appyType.type == 'Calendar': self.walkCalendar() def generate(self): '''Generates the i18n labels for this type.''' self.walkAppyType() # ------------------------------------------------------------------------------ class ToolClassDescriptor(ClassDescriptor): '''Represents the POD-specific fields that must be added to the tool.''' def __init__(self, klass, generator): ClassDescriptor.__init__(self,klass,klass._appy_attributes[:],generator) self.modelClass = self.klass self.predefined = True self.customized = False def getParents(self, allClasses=()): res = ['Tool'] if self.customized: res.append('%s.%s' % (self.klass.__module__, self.klass.__name__)) return res def update(self, klass, attributes): '''This method is called by the generator when he finds a custom tool definition. We must then add the custom tool elements in this default Tool descriptor.''' self.orderedAttributes += attributes self.klass = klass self.customized = True def isFolder(self, klass=None): return True def isRoot(self): return False def generateSchema(self): ClassDescriptor.generateSchema(self, configClass=True) def addOptionalField(self, fieldDescr): className = fieldDescr.classDescr.name fieldName = 'optionalFieldsFor%s' % className fieldType = getattr(self.modelClass, fieldName, None) if not fieldType: fieldType = String(multiplicity=(0,None)) fieldType.validator = [] self.addField(fieldName, fieldType) fieldType.validator.append(fieldDescr.fieldName) fieldType.page.name = 'data' fieldType.group = gen.Group(fieldDescr.classDescr.klass.__name__) def addDefaultField(self, fieldDescr): className = fieldDescr.classDescr.name fieldName = 'defaultValueFor%s_%s' % (className, fieldDescr.fieldName) fieldType = fieldDescr.appyType.clone() self.addField(fieldName, fieldType) fieldType.page.name = 'data' fieldType.group = gen.Group(fieldDescr.classDescr.klass.__name__) def addPodRelatedFields(self, fieldDescr): '''Adds the fields needed in the Tool for configuring a Pod field.''' className = fieldDescr.classDescr.name # On what page and group to display those fields ? pg = {'page': 'documents', 'group':gen.Group(fieldDescr.classDescr.klass.__name__,['50%']*2)} # Add the field that will store the pod template. fieldName = 'podTemplateFor%s_%s' % (className, fieldDescr.fieldName) fieldType = gen.File(**pg) self.addField(fieldName, fieldType) # Add the field that will store the output format(s) fieldName = 'formatsFor%s_%s' % (className, fieldDescr.fieldName) fieldType = gen.String(validator=gen.Selection('getPodOutputFormats'), multiplicity=(1,None), default=('odt',), **pg) self.addField(fieldName, fieldType) def addQueryResultColumns(self, classDescr): '''Adds, for class p_classDescr, the attribute in the tool that allows to select what default columns will be shown on query results.''' className = classDescr.name fieldName = 'resultColumnsFor%s' % className fieldType = gen.String(multiplicity=(0,None), validator=gen.Selection( '_appy_getAllFields*%s' % className), page='userInterface', group=classDescr.klass.__name__, default=['title']) self.addField(fieldName, fieldType) def addSearchRelatedFields(self, classDescr): '''Adds, for class p_classDescr, attributes related to the search functionality for class p_classDescr.''' className = classDescr.name # Field that defines if advanced search is enabled for class # p_classDescr or not. fieldName = 'enableAdvancedSearchFor%s' % className fieldType = gen.Boolean(default=True, page='userInterface', group=classDescr.klass.__name__) self.addField(fieldName, fieldType) # Field that defines how many columns are shown on the custom search # screen. fieldName = 'numberOfSearchColumnsFor%s' % className fieldType = gen.Integer(default=3, page='userInterface', group=classDescr.klass.__name__) self.addField(fieldName, fieldType) # Field that allows to select, among all indexed fields, what fields # must really be used in the search screen. fieldName = 'searchFieldsFor%s' % className defaultValue = [a[0] for a in classDescr.getOrderedAppyAttributes( condition='attrValue.indexed')] if 'title' not in defaultValue: defaultValue.insert(0, 'title') fieldType = gen.String(multiplicity=(0,None), validator=gen.Selection( '_appy_getSearchableFields*%s' % className), default=defaultValue, page='userInterface', group=classDescr.klass.__name__) self.addField(fieldName, fieldType) def addImportRelatedFields(self, classDescr): '''Adds, for class p_classDescr, attributes related to the import functionality for class p_classDescr.''' className = classDescr.name # Field that defines the path of the files to import. fieldName = 'importPathFor%s' % className defValue = classDescr.getCreateMean('Import').path fieldType = gen.String(page='data', multiplicity=(1,1), default=defValue,group=classDescr.klass.__name__) self.addField(fieldName, fieldType) def addWorkflowFields(self, classDescr): '''Adds, for a given p_classDescr, the workflow-related fields.''' className = classDescr.name groupName = classDescr.klass.__name__ # Adds a field allowing to show/hide completely any workflow-related # information for a given class. defaultValue = False if classDescr.isRoot() or issubclass(classDescr.klass, ModelClass): defaultValue = True fieldName = 'showWorkflowFor%s' % className fieldType = gen.Boolean(default=defaultValue, page='userInterface', group=groupName) self.addField(fieldName, fieldType) # Adds the boolean field for showing all states in current state or not. # If this boolean is True but the current phase counts only one state, # we will not show the state at all: the fact of knowing in what phase # we are is sufficient. If this boolean is False, we simply show the # current state. defaultValue = False if len(classDescr.getPhases()) > 1: defaultValue = True fieldName = 'showAllStatesInPhaseFor%s' % className fieldType = gen.Boolean(default=defaultValue, page='userInterface', group=groupName) self.addField(fieldName, fieldType) class UserClassDescriptor(ClassDescriptor): '''Appy-specific class for representing a user.''' def __init__(self, klass, generator): ClassDescriptor.__init__(self,klass,klass._appy_attributes[:],generator) self.modelClass = self.klass self.predefined = True self.customized = False def getParents(self, allClasses=()): res = ['User'] if self.customized: res.append('%s.%s' % (self.klass.__module__, self.klass.__name__)) return res def update(self, klass, attributes): '''This method is called by the generator when he finds a custom user definition. We must then add the custom user elements in this default User descriptor.''' self.orderedAttributes += attributes self.klass = klass self.customized = True def isFolder(self, klass=None): return False def generateSchema(self): ClassDescriptor.generateSchema(self, configClass=True) class GroupClassDescriptor(ClassDescriptor): '''Represents the class that corresponds to the Group for the generated application.''' def __init__(self, klass, generator): ClassDescriptor.__init__(self,klass,klass._appy_attributes[:],generator) self.modelClass = self.klass self.predefined = True self.customized = False def getParents(self, allClasses=()): res = ['Group'] if self.customized: res.append('%s.%s' % (self.klass.__module__, self.klass.__name__)) return res def update(self, klass, attributes): '''This method is called by the generator when he finds a custom group definition. We must then add the custom group elements in this default Group descriptor. NOTE: currently, it is not possible to define a custom Group class.''' self.orderedAttributes += attributes self.klass = klass self.customized = True def isFolder(self, klass=None): return False def generateSchema(self): ClassDescriptor.generateSchema(self, configClass=True) class TranslationClassDescriptor(ClassDescriptor): '''Represents the set of translation ids for a gen-application.''' def __init__(self, klass, generator): ClassDescriptor.__init__(self,klass,klass._appy_attributes[:],generator) self.modelClass = self.klass self.predefined = True self.customized = False def getParents(self, allClasses=()): return ('Translation',) def isFolder(self, klass=None): return False def generateSchema(self): ClassDescriptor.generateSchema(self, configClass=True) def addLabelField(self, messageId, page): '''Adds a Computed field that will display, in the source language, the content of the text to translate.''' field = gen.Computed(method=self.modelClass.label, plainText=False, page=page, show=self.modelClass.show, layouts='f') self.addField('%s_label' % messageId, field) def addMessageField(self, messageId, page, i18nFiles): '''Adds a message field corresponding to p_messageId to the Translation class, on a given p_page. We need i18n files p_i18nFiles for fine-tuning the String type to generate for this field (one-line? several lines?...)''' params = {'page':page, 'layouts':'f', 'show': self.modelClass.show} appName = self.generator.applicationName # Scan all messages corresponding to p_messageId from all translation # files. We will define field length from the longer found message # content. maxLine = 100 # We suppose a line is 100 characters long. width = 0 height = 0 for fileName, poFile in i18nFiles.iteritems(): if not fileName.startswith('%s-' % appName) or \ not i18nFiles[fileName].messagesDict.has_key(messageId): # In this case this is not one of our Appy-managed translation # files. continue msgContent = i18nFiles[fileName].messagesDict[messageId].msg # Compute width width = max(width, len(msgContent)) # Compute height (a "\n" counts for one line) mHeight = int(len(msgContent)/maxLine) + msgContent.count('
') height = max(height, mHeight) if height < 1: # This is a one-line field. params['width'] = width else: # This is a multi-line field, or a very-long-single-lined field params['format'] = gen.String.TEXT params['height'] = height self.addField(messageId, gen.String(**params)) class PageClassDescriptor(ClassDescriptor): '''Represents the class that corresponds to a Page.''' def __init__(self, klass, generator): ClassDescriptor.__init__(self,klass,klass._appy_attributes[:],generator) self.modelClass = self.klass self.predefined = True self.customized = False def getParents(self, allClasses=()): res = ['Page'] if self.customized: res.append('%s.%s' % (self.klass.__module__, self.klass.__name__)) return res def update(self, klass, attributes): '''This method is called by the generator when he finds a custom page definition. We must then add the custom page elements in this default Page descriptor. NOTE: currently, it is not possible to define a custom Page class.''' self.orderedAttributes += attributes self.klass = klass self.customized = True def isFolder(self, klass=None): return True def generateSchema(self): ClassDescriptor.generateSchema(self, configClass=True) # ------------------------------------------------------------------------------